Name __________________________ Date ___________________ Period _____ Score out of 25 _____
Corrected by ______________________________
Levers in the Human Body
Levers confer mechanical advantage.
The application of mechanical advantage applies to the musculoskeletal system.
The skeletal and muscular systems work together to move your body parts. Some of your body parts can
be thought of as simple machines or levers. There are six classes of simple machines. A lever is one of
them. Other simple machines in the lever’s family are the wheel and axle and the pulley.
A lever is a bar that turns on an unmoving point called a fulcrum. When you push or pull on one end of
the bar that pressure is called the force. The object that is lifted on the other end is called the load.
There
•
•
•
are three parts to all levers:
Fulcrum - the point at which the lever rotates.
Input force (also called the effort) - the force applied to the lever.
Output force (also called the load) - the force applied by the lever to move the load.
There are three types of levers: first class, second class and third class. The difference between the three
classes depends on where the force is, where the fulcrum is and where the load is.
In a first class lever, the fulcrum is located between the input force and output force.
In a second class lever, the output force is between the fulcrum and the input force.
In a third class lever, the input force is between the fulcrum and the output force.
For the following pictures of simple machines, draw a circle around the fulcrum and
write the class of lever.
Simple Machine-draw a circle around
the fulcrum
1. Scissors
2. Nutcracker
3. Wheelbarrow
4. Crowbar
5. Tongs
6. Seesaw
7. Staple
Class of Lever
Name __________________________ Date ___________________ Period _____ Score out of 10 _____
Corrected by ______________________________
Levers in the Human Body Page 2
The three classes of levers can be found in your body. Use diagrams A, B, and C to answer the
questions below.
Also label the effort (input force), fulcrum, and load (output force) on each diagram.
LEVER A
15. Type of Lever: ______________________
16. How is this lever used in the body? (2 pts.)
______________________________________
______________________________________
______________________________________
LEVER B
17. Type of Lever: ______________________
18. How is this lever used in the body? (2 pts.)
____________________________________
____________________________________
____________________________________
LEVER C
19. Type of Lever: __________
20. How is this lever used in the body? (2 pts.)
___________________________________
___________________________________
___________________________________